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text.c
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text.c
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#include <unistd.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <fcntl.h>
#include <errno.h>
#include <wchar.h>
#include <stdint.h>
#include <libgen.h>
#include <limits.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <sys/mman.h>
#include "text.h"
#include "text-util.h"
#include "text-motions.h"
#include "util.h"
#include "array.h"
#include "text-internal.h"
/* A piece holds a reference (but doesn't itself store) a certain amount of data.
* All active pieces chained together form the whole content of the document.
* At the beginning there exists only one piece, spanning the whole document.
* Upon insertion/deletion new pieces will be created to represent the changes.
* Generally pieces are never destroyed, but kept around to perform undo/redo
* operations.
*/
struct Piece {
Text *text; /* text to which this piece belongs */
Piece *prev, *next; /* pointers to the logical predecessor/successor */
Piece *global_prev; /* double linked list in order of allocation, */
Piece *global_next; /* used to free individual pieces */
const char *data; /* pointer into a Block holding the data */
size_t len; /* the length in number of bytes of the data */
};
/* used to transform a global position (byte offset starting from the beginning
* of the text) into an offset relative to a piece.
*/
typedef struct {
Piece *piece; /* piece holding the location */
size_t off; /* offset into the piece in bytes */
} Location;
/* A Span holds a certain range of pieces. Changes to the document are always
* performed by swapping out an existing span with a new one.
*/
typedef struct {
Piece *start, *end; /* start/end of the span */
size_t len; /* the sum of the lengths of the pieces which form this span */
} Span;
/* A Change keeps all needed information to redo/undo an insertion/deletion. */
typedef struct Change Change;
struct Change {
Span old; /* all pieces which are being modified/swapped out by the change */
Span new; /* all pieces which are introduced/swapped in by the change */
size_t pos; /* absolute position at which the change occurred */
Change *next; /* next change which is part of the same revision */
Change *prev; /* previous change which is part of the same revision */
};
/* A Revision is a list of Changes which are used to undo/redo all modifications
* since the last snapshot operation. Revisions are stored in a directed graph structure.
*/
typedef struct Revision Revision;
struct Revision {
Change *change; /* the most recent change */
Revision *next; /* the next (child) revision in the undo tree */
Revision *prev; /* the previous (parent) revision in the undo tree */
Revision *earlier; /* the previous Revision, chronologically */
Revision *later; /* the next Revision, chronologically */
time_t time; /* when the first change of this revision was performed */
size_t seq; /* a unique, strictly increasing identifier */
};
typedef struct {
size_t pos; /* position in bytes from start of file */
size_t lineno; /* line number in file i.e. number of '\n' in [0, pos) */
} LineCache;
/* The main struct holding all information of a given file */
struct Text {
Array blocks; /* blocks which hold text content */
Piece *pieces; /* all pieces which have been allocated, used to free them */
Piece *cache; /* most recently modified piece */
Piece begin, end; /* sentinel nodes which always exists but don't hold any data */
Revision *history; /* undo tree */
Revision *current_revision; /* revision holding all file changes until a snapshot is performed */
Revision *last_revision; /* the last revision added to the tree, chronologically */
Revision *saved_revision; /* the last revision at the time of the save operation */
size_t size; /* current file content size in bytes */
struct stat info; /* stat as probed at load time */
LineCache lines; /* mapping between absolute pos in bytes and logical line breaks */
};
/* block management */
static const char *block_store(Text*, const char *data, size_t len);
/* cache layer */
static void cache_piece(Text *txt, Piece *p);
static bool cache_contains(Text *txt, Piece *p);
static bool cache_insert(Text *txt, Piece *p, size_t off, const char *data, size_t len);
static bool cache_delete(Text *txt, Piece *p, size_t off, size_t len);
/* piece management */
static Piece *piece_alloc(Text *txt);
static void piece_free(Piece *p);
static void piece_init(Piece *p, Piece *prev, Piece *next, const char *data, size_t len);
static Location piece_get_intern(Text *txt, size_t pos);
static Location piece_get_extern(const Text *txt, size_t pos);
/* span management */
static void span_init(Span *span, Piece *start, Piece *end);
static void span_swap(Text *txt, Span *old, Span *new);
/* change management */
static Change *change_alloc(Text *txt, size_t pos);
static void change_free(Change *c);
/* revision management */
static Revision *revision_alloc(Text *txt);
static void revision_free(Revision *rev);
/* logical line counting cache */
static void lineno_cache_invalidate(LineCache *cache);
static size_t lines_skip_forward(Text *txt, size_t pos, size_t lines, size_t *lines_skipped);
static size_t lines_count(Text *txt, size_t pos, size_t len);
/* stores the given data in a block, allocates a new one if necessary. Returns
* a pointer to the storage location or NULL if allocation failed. */
static const char *block_store(Text *txt, const char *data, size_t len) {
Block *blk = array_get_ptr(&txt->blocks, array_length(&txt->blocks)-1);
if (!blk || !block_capacity(blk, len)) {
blk = block_alloc(len);
if (!blk)
return NULL;
if (!array_add_ptr(&txt->blocks, blk)) {
block_free(blk);
return NULL;
}
}
return block_append(blk, data, len);
}
/* cache the given piece if it is the most recently changed one */
static void cache_piece(Text *txt, Piece *p) {
Block *blk = array_get_ptr(&txt->blocks, array_length(&txt->blocks)-1);
if (!blk || p->data < blk->data || p->data + p->len != blk->data + blk->len)
return;
txt->cache = p;
}
/* check whether the given piece was the most recently modified one */
static bool cache_contains(Text *txt, Piece *p) {
Block *blk = array_get_ptr(&txt->blocks, array_length(&txt->blocks)-1);
Revision *rev = txt->current_revision;
if (!blk || !txt->cache || txt->cache != p || !rev || !rev->change)
return false;
Piece *start = rev->change->new.start;
Piece *end = rev->change->new.end;
bool found = false;
for (Piece *cur = start; !found; cur = cur->next) {
if (cur == p)
found = true;
if (cur == end)
break;
}
return found && p->data + p->len == blk->data + blk->len;
}
/* try to insert a chunk of data at a given piece offset. The insertion is only
* performed if the piece is the most recently changed one. The length of the
* piece, the span containing it and the whole text is adjusted accordingly */
static bool cache_insert(Text *txt, Piece *p, size_t off, const char *data, size_t len) {
if (!cache_contains(txt, p))
return false;
Block *blk = array_get_ptr(&txt->blocks, array_length(&txt->blocks)-1);
size_t bufpos = p->data + off - blk->data;
if (!block_insert(blk, bufpos, data, len))
return false;
p->len += len;
txt->current_revision->change->new.len += len;
txt->size += len;
return true;
}
/* try to delete a chunk of data at a given piece offset. The deletion is only
* performed if the piece is the most recently changed one and the whole
* affected range lies within it. The length of the piece, the span containing it
* and the whole text is adjusted accordingly */
static bool cache_delete(Text *txt, Piece *p, size_t off, size_t len) {
if (!cache_contains(txt, p))
return false;
Block *blk = array_get_ptr(&txt->blocks, array_length(&txt->blocks)-1);
size_t end;
size_t bufpos = p->data + off - blk->data;
if (!addu(off, len, &end) || end > p->len || !block_delete(blk, bufpos, len))
return false;
p->len -= len;
txt->current_revision->change->new.len -= len;
txt->size -= len;
return true;
}
/* initialize a span and calculate its length */
static void span_init(Span *span, Piece *start, Piece *end) {
size_t len = 0;
span->start = start;
span->end = end;
for (Piece *p = start; p; p = p->next) {
len += p->len;
if (p == end)
break;
}
span->len = len;
}
/* swap out an old span and replace it with a new one.
*
* - if old is an empty span do not remove anything, just insert the new one
* - if new is an empty span do not insert anything, just remove the old one
*
* adjusts the document size accordingly.
*/
static void span_swap(Text *txt, Span *old, Span *new) {
if (old->len == 0 && new->len == 0) {
return;
} else if (old->len == 0) {
/* insert new span */
new->start->prev->next = new->start;
new->end->next->prev = new->end;
} else if (new->len == 0) {
/* delete old span */
old->start->prev->next = old->end->next;
old->end->next->prev = old->start->prev;
} else {
/* replace old with new */
old->start->prev->next = new->start;
old->end->next->prev = new->end;
}
txt->size -= old->len;
txt->size += new->len;
}
/* Allocate a new revision and place it in the revision graph.
* All further changes will be associated with this revision. */
static Revision *revision_alloc(Text *txt) {
Revision *rev = calloc(1, sizeof *rev);
if (!rev)
return NULL;
rev->time = time(NULL);
txt->current_revision = rev;
/* set sequence number */
if (!txt->last_revision)
rev->seq = 0;
else
rev->seq = txt->last_revision->seq + 1;
/* set earlier, later pointers */
if (txt->last_revision)
txt->last_revision->later = rev;
rev->earlier = txt->last_revision;
if (!txt->history) {
txt->history = rev;
return rev;
}
/* set prev, next pointers */
rev->prev = txt->history;
txt->history->next = rev;
txt->history = rev;
return rev;
}
static void revision_free(Revision *rev) {
if (!rev)
return;
for (Change *next, *c = rev->change; c; c = next) {
next = c->next;
change_free(c);
}
free(rev);
}
static Piece *piece_alloc(Text *txt) {
Piece *p = calloc(1, sizeof *p);
if (!p)
return NULL;
p->text = txt;
p->global_next = txt->pieces;
if (txt->pieces)
txt->pieces->global_prev = p;
txt->pieces = p;
return p;
}
static void piece_free(Piece *p) {
if (!p)
return;
if (p->global_prev)
p->global_prev->global_next = p->global_next;
if (p->global_next)
p->global_next->global_prev = p->global_prev;
if (p->text->pieces == p)
p->text->pieces = p->global_next;
if (p->text->cache == p)
p->text->cache = NULL;
free(p);
}
static void piece_init(Piece *p, Piece *prev, Piece *next, const char *data, size_t len) {
p->prev = prev;
p->next = next;
p->data = data;
p->len = len;
}
/* returns the piece holding the text at byte offset pos. If pos happens to
* be at a piece boundary i.e. the first byte of a piece then the previous piece
* to the left is returned with an offset of piece->len. This is convenient for
* modifications to the piece chain where both pieces (the returned one and the
* one following it) are needed, but unsuitable as a public interface.
*
* in particular if pos is zero, the begin sentinel piece is returned.
*/
static Location piece_get_intern(Text *txt, size_t pos) {
size_t cur = 0;
for (Piece *p = &txt->begin; p->next; p = p->next) {
if (cur <= pos && pos <= cur + p->len)
return (Location){ .piece = p, .off = pos - cur };
cur += p->len;
}
return (Location){ 0 };
}
/* similar to piece_get_intern but usable as a public API. Returns the piece
* holding the text at byte offset pos. Never returns a sentinel piece.
* it pos is the end of file (== text_size()) and the file is not empty then
* the last piece holding data is returned.
*/
static Location piece_get_extern(const Text *txt, size_t pos) {
size_t cur = 0;
Piece *p;
for (p = txt->begin.next; p->next; p = p->next) {
if (cur <= pos && pos < cur + p->len)
return (Location){ .piece = p, .off = pos - cur };
cur += p->len;
}
if (cur == pos)
return (Location){ .piece = p->prev, .off = p->prev->len };
return (Location){ 0 };
}
/* allocate a new change, associate it with current revision or a newly
* allocated one if none exists. */
static Change *change_alloc(Text *txt, size_t pos) {
Revision *rev = txt->current_revision;
if (!rev) {
rev = revision_alloc(txt);
if (!rev)
return NULL;
}
Change *c = calloc(1, sizeof *c);
if (!c)
return NULL;
c->pos = pos;
c->next = rev->change;
if (rev->change)
rev->change->prev = c;
rev->change = c;
return c;
}
static void change_free(Change *c) {
if (!c)
return;
/* only free the new part of the span, the old one is still in use */
if (c->new.start != c->new.end)
piece_free(c->new.end);
piece_free(c->new.start);
free(c);
}
/* When inserting new data there are 2 cases to consider.
*
* - in the first the insertion point falls into the middle of an existing
* piece which is replaced by three new pieces:
*
* /-+ --> +---------------+ --> +-\
* | | | existing text | | |
* \-+ <-- +---------------+ <-- +-/
* ^
* Insertion point for "demo "
*
* /-+ --> +---------+ --> +-----+ --> +-----+ --> +-\
* | | | existing| |demo | |text | | |
* \-+ <-- +---------+ <-- +-----+ <-- +-----+ <-- +-/
*
* - the second case deals with an insertion point at a piece boundary:
*
* /-+ --> +---------------+ --> +-\
* | | | existing text | | |
* \-+ <-- +---------------+ <-- +-/
* ^
* Insertion point for "short"
*
* /-+ --> +-----+ --> +---------------+ --> +-\
* | | |short| | existing text | | |
* \-+ <-- +-----+ <-- +---------------+ <-- +-/
*/
bool text_insert(Text *txt, size_t pos, const char *data, size_t len) {
if (len == 0)
return true;
if (pos > txt->size)
return false;
if (pos < txt->lines.pos)
lineno_cache_invalidate(&txt->lines);
Location loc = piece_get_intern(txt, pos);
Piece *p = loc.piece;
if (!p)
return false;
size_t off = loc.off;
if (cache_insert(txt, p, off, data, len))
return true;
Change *c = change_alloc(txt, pos);
if (!c)
return false;
if (!(data = block_store(txt, data, len)))
return false;
Piece *new = NULL;
if (off == p->len) {
/* insert between two existing pieces, hence there is nothing to
* remove, just add a new piece holding the extra text */
if (!(new = piece_alloc(txt)))
return false;
piece_init(new, p, p->next, data, len);
span_init(&c->new, new, new);
span_init(&c->old, NULL, NULL);
} else {
/* insert into middle of an existing piece, therefore split the old
* piece. That is we have 3 new pieces one containing the content
* before the insertion point then one holding the newly inserted
* text and one holding the content after the insertion point.
*/
Piece *before = piece_alloc(txt);
new = piece_alloc(txt);
Piece *after = piece_alloc(txt);
if (!before || !new || !after)
return false;
piece_init(before, p->prev, new, p->data, off);
piece_init(new, before, after, data, len);
piece_init(after, new, p->next, p->data + off, p->len - off);
span_init(&c->new, before, after);
span_init(&c->old, p, p);
}
cache_piece(txt, new);
span_swap(txt, &c->old, &c->new);
return true;
}
static size_t revision_undo(Text *txt, Revision *rev) {
size_t pos = EPOS;
for (Change *c = rev->change; c; c = c->next) {
span_swap(txt, &c->new, &c->old);
pos = c->pos;
}
return pos;
}
static size_t revision_redo(Text *txt, Revision *rev) {
size_t pos = EPOS;
Change *c = rev->change;
while (c->next)
c = c->next;
for ( ; c; c = c->prev) {
span_swap(txt, &c->old, &c->new);
pos = c->pos;
if (c->new.len > c->old.len)
pos += c->new.len - c->old.len;
}
return pos;
}
size_t text_undo(Text *txt) {
size_t pos = EPOS;
/* taking rev snapshot makes sure that txt->current_revision is reset */
text_snapshot(txt);
Revision *rev = txt->history->prev;
if (!rev)
return pos;
pos = revision_undo(txt, txt->history);
txt->history = rev;
lineno_cache_invalidate(&txt->lines);
return pos;
}
size_t text_redo(Text *txt) {
size_t pos = EPOS;
/* taking a snapshot makes sure that txt->current_revision is reset */
text_snapshot(txt);
Revision *rev = txt->history->next;
if (!rev)
return pos;
pos = revision_redo(txt, rev);
txt->history = rev;
lineno_cache_invalidate(&txt->lines);
return pos;
}
static bool history_change_branch(Revision *rev) {
bool changed = false;
while (rev->prev) {
if (rev->prev->next != rev) {
rev->prev->next = rev;
changed = true;
}
rev = rev->prev;
}
return changed;
}
static size_t history_traverse_to(Text *txt, Revision *rev) {
size_t pos = EPOS;
if (!rev)
return pos;
bool changed = history_change_branch(rev);
if (!changed) {
if (rev->seq == txt->history->seq) {
return txt->lines.pos;
} else if (rev->seq > txt->history->seq) {
while (txt->history != rev)
pos = text_redo(txt);
return pos;
} else if (rev->seq < txt->history->seq) {
while (txt->history != rev)
pos = text_undo(txt);
return pos;
}
} else {
while (txt->history->prev && txt->history->prev->next == txt->history)
text_undo(txt);
pos = text_undo(txt);
while (txt->history != rev)
pos = text_redo(txt);
return pos;
}
return pos;
}
size_t text_earlier(Text *txt) {
return history_traverse_to(txt, txt->history->earlier);
}
size_t text_later(Text *txt) {
return history_traverse_to(txt, txt->history->later);
}
size_t text_restore(Text *txt, time_t time) {
Revision *rev = txt->history;
while (time < rev->time && rev->earlier)
rev = rev->earlier;
while (time > rev->time && rev->later)
rev = rev->later;
time_t diff = labs(rev->time - time);
if (rev->earlier && rev->earlier != txt->history && labs(rev->earlier->time - time) < diff)
rev = rev->earlier;
if (rev->later && rev->later != txt->history && labs(rev->later->time - time) < diff)
rev = rev->later;
return history_traverse_to(txt, rev);
}
time_t text_state(const Text *txt) {
return txt->history->time;
}
Text *text_loadat_method(int dirfd, const char *filename, enum TextLoadMethod method) {
Text *txt = calloc(1, sizeof *txt);
if (!txt)
return NULL;
Piece *p = piece_alloc(txt);
if (!p)
goto out;
Block *block = NULL;
array_init(&txt->blocks);
lineno_cache_invalidate(&txt->lines);
if (filename) {
errno = 0;
block = block_load(dirfd, filename, method, &txt->info);
if (!block && errno)
goto out;
if (block && !array_add_ptr(&txt->blocks, block)) {
block_free(block);
goto out;
}
}
if (!block)
piece_init(p, &txt->begin, &txt->end, "\0", 0);
else
piece_init(p, &txt->begin, &txt->end, block->data, block->len);
piece_init(&txt->begin, NULL, p, NULL, 0);
piece_init(&txt->end, p, NULL, NULL, 0);
txt->size = p->len;
/* write an empty revision */
change_alloc(txt, EPOS);
text_snapshot(txt);
txt->saved_revision = txt->history;
return txt;
out:
text_free(txt);
return NULL;
}
struct stat text_stat(const Text *txt) {
return txt->info;
}
void text_saved(Text *txt, struct stat *meta) {
if (meta)
txt->info = *meta;
txt->saved_revision = txt->history;
text_snapshot(txt);
}
Block *text_block_mmaped(Text *txt) {
Block *block = array_get_ptr(&txt->blocks, 0);
if (block && block->type == BLOCK_TYPE_MMAP_ORIG && block->size)
return block;
return NULL;
}
/* A delete operation can either start/stop midway through a piece or at
* a boundary. In the former case a new piece is created to represent the
* remaining text before/after the modification point.
*
* /-+ --> +---------+ --> +-----+ --> +-----+ --> +-\
* | | | existing| |demo | |text | | |
* \-+ <-- +---------+ <-- +-----+ <-- +-----+ <-- +-/
* ^ ^
* |------ delete range -----|
*
* /-+ --> +----+ --> +--+ --> +-\
* | | | exi| |t | | |
* \-+ <-- +----+ <-- +--+ <-- +-/
*/
bool text_delete(Text *txt, size_t pos, size_t len) {
if (len == 0)
return true;
size_t pos_end;
if (!addu(pos, len, &pos_end) || pos_end > txt->size)
return false;
if (pos < txt->lines.pos)
lineno_cache_invalidate(&txt->lines);
Location loc = piece_get_intern(txt, pos);
Piece *p = loc.piece;
if (!p)
return false;
size_t off = loc.off;
if (cache_delete(txt, p, off, len))
return true;
Change *c = change_alloc(txt, pos);
if (!c)
return false;
bool midway_start = false, midway_end = false; /* split pieces? */
Piece *before, *after; /* unmodified pieces before/after deletion point */
Piece *start, *end; /* span which is removed */
size_t cur; /* how much has already been deleted */
if (off == p->len) {
/* deletion starts at a piece boundary */
cur = 0;
before = p;
start = p->next;
} else {
/* deletion starts midway through a piece */
midway_start = true;
cur = p->len - off;
start = p;
before = piece_alloc(txt);
if (!before)
return false;
}
/* skip all pieces which fall into deletion range */
while (cur < len) {
p = p->next;
cur += p->len;
}
if (cur == len) {
/* deletion stops at a piece boundary */
end = p;
after = p->next;
} else {
/* cur > len: deletion stops midway through a piece */
midway_end = true;
end = p;
after = piece_alloc(txt);
if (!after)
return false;
piece_init(after, before, p->next, p->data + p->len - (cur - len), cur - len);
}
if (midway_start) {
/* we finally know which piece follows our newly allocated before piece */
piece_init(before, start->prev, after, start->data, off);
}
Piece *new_start = NULL, *new_end = NULL;
if (midway_start) {
new_start = before;
if (!midway_end)
new_end = before;
}
if (midway_end) {
if (!midway_start)
new_start = after;
new_end = after;
}
span_init(&c->new, new_start, new_end);
span_init(&c->old, start, end);
span_swap(txt, &c->old, &c->new);
return true;
}
bool text_delete_range(Text *txt, const Filerange *r) {
if (!text_range_valid(r))
return false;
return text_delete(txt, r->start, text_range_size(r));
}
/* preserve the current text content such that it can be restored by
* means of undo/redo operations */
bool text_snapshot(Text *txt) {
if (txt->current_revision)
txt->last_revision = txt->current_revision;
txt->current_revision = NULL;
txt->cache = NULL;
return true;
}
void text_free(Text *txt) {
if (!txt)
return;
// free history
Revision *hist = txt->history;
while (hist && hist->prev)
hist = hist->prev;
while (hist) {
Revision *later = hist->later;
revision_free(hist);
hist = later;
}
for (Piece *next, *p = txt->pieces; p; p = next) {
next = p->global_next;
piece_free(p);
}
for (size_t i = 0, len = array_length(&txt->blocks); i < len; i++)
block_free(array_get_ptr(&txt->blocks, i));
array_release(&txt->blocks);
free(txt);
}
bool text_modified(const Text *txt) {
return txt->saved_revision != txt->history;
}
bool text_mmaped(const Text *txt, const char *ptr) {
uintptr_t addr = (uintptr_t)ptr;
for (size_t i = 0, len = array_length(&txt->blocks); i < len; i++) {
Block *blk = array_get_ptr(&txt->blocks, i);
if ((blk->type == BLOCK_TYPE_MMAP_ORIG || blk->type == BLOCK_TYPE_MMAP) &&
(uintptr_t)(blk->data) <= addr && addr < (uintptr_t)(blk->data + blk->size))
return true;
}
return false;
}
static bool iterator_init(Iterator *it, size_t pos, Piece *p, size_t off) {
*it = (Iterator){
.pos = pos,
.piece = p,
.start = p ? p->data : NULL,
.end = p && p->data ? p->data + p->len : NULL,
.text = p && p->data ? p->data + off : NULL,
};
return text_iterator_valid(it);
}
bool text_iterator_init(const Text *txt, Iterator *it, size_t pos) {
Location loc = piece_get_extern(txt, pos);
return iterator_init(it, pos, loc.piece, loc.off);
}
Iterator text_iterator_get(const Text *txt, size_t pos) {
Iterator it;
text_iterator_init(txt, &it, pos);
return it;
}
bool text_iterator_next(Iterator *it) {
size_t rem = it->end - it->text;
return iterator_init(it, it->pos+rem, it->piece ? it->piece->next : NULL, 0);
}
bool text_iterator_prev(Iterator *it) {
size_t off = it->text - it->start;
size_t len = it->piece && it->piece->prev ? it->piece->prev->len : 0;
return iterator_init(it, it->pos-off, it->piece ? it->piece->prev : NULL, len);
}
const Text *text_iterator_text(const Iterator *it) {
return it->piece ? it->piece->text : NULL;
}
bool text_iterator_valid(const Iterator *it) {
/* filter out sentinel nodes */
return it->piece && it->piece->text;
}
bool text_iterator_has_next(const Iterator *it) {
return it->piece && it->piece->next;
}
bool text_iterator_has_prev(const Iterator *it) {
return it->piece && it->piece->prev;
}
size_t text_size(const Text *txt) {
return txt->size;
}
/* count the number of new lines '\n' in range [pos, pos+len) */
static size_t lines_count(Text *txt, size_t pos, size_t len) {
size_t lines = 0;
for (Iterator it = text_iterator_get(txt, pos);
text_iterator_valid(&it);
text_iterator_next(&it)) {
const char *start = it.text;
while (len > 0 && start < it.end) {
size_t n = MIN(len, (size_t)(it.end - start));
const char *end = memchr(start, '\n', n);
if (!end) {
len -= n;
break;
}
lines++;
len -= end - start + 1;
start = end + 1;
}
if (len == 0)
break;
}
return lines;
}
/* skip n lines forward and return position afterwards */
static size_t lines_skip_forward(Text *txt, size_t pos, size_t lines, size_t *lines_skipped) {
size_t lines_old = lines;
for (Iterator it = text_iterator_get(txt, pos);
text_iterator_valid(&it);
text_iterator_next(&it)) {
const char *start = it.text;
while (lines > 0 && start < it.end) {
size_t n = it.end - start;
const char *end = memchr(start, '\n', n);
if (!end) {
pos += n;
break;
}
pos += end - start + 1;
start = end + 1;
lines--;
}
if (lines == 0)
break;
}
if (lines_skipped)
*lines_skipped = lines_old - lines;
return pos;
}
static void lineno_cache_invalidate(LineCache *cache) {
cache->pos = 0;
cache->lineno = 1;
}
size_t text_pos_by_lineno(Text *txt, size_t lineno) {
size_t lines_skipped;
LineCache *cache = &txt->lines;
if (lineno <= 1)
return 0;
if (lineno > cache->lineno) {
cache->pos = lines_skip_forward(txt, cache->pos, lineno - cache->lineno, &lines_skipped);
cache->lineno += lines_skipped;
} else if (lineno < cache->lineno) {
#if 0
// TODO does it make sense to scan memory backwards here?
size_t diff = cache->lineno - lineno;
if (diff < lineno) {
lines_skip_backward(txt, cache->pos, diff);
} else
#endif
cache->pos = lines_skip_forward(txt, 0, lineno - 1, &lines_skipped);
cache->lineno = lines_skipped + 1;
}
return cache->lineno == lineno ? cache->pos : EPOS;
}
size_t text_lineno_by_pos(Text *txt, size_t pos) {
LineCache *cache = &txt->lines;
if (pos > txt->size)
pos = txt->size;
if (pos < cache->pos) {
size_t diff = cache->pos - pos;
if (diff < pos)
cache->lineno -= lines_count(txt, pos, diff);
else
cache->lineno = lines_count(txt, 0, pos) + 1;
} else if (pos > cache->pos) {
cache->lineno += lines_count(txt, cache->pos, pos - cache->pos);
}
cache->pos = text_line_begin(txt, pos);
return cache->lineno;
}
Mark text_mark_set(Text *txt, size_t pos) {
if (pos == txt->size)
return (Mark)&txt->end;
Location loc = piece_get_extern(txt, pos);
if (!loc.piece)
return EMARK;
return (Mark)(loc.piece->data + loc.off);
}
size_t text_mark_get(const Text *txt, Mark mark) {
size_t cur = 0;
if (mark == EMARK)
return EPOS;
if (mark == (Mark)&txt->end)
return txt->size;
for (Piece *p = txt->begin.next; p->next; p = p->next) {
Mark start = (Mark)(p->data);
Mark end = start + p->len;
if (start <= mark && mark < end)
return cur + (mark - start);
cur += p->len;
}
return EPOS;
}